WHITE PAPER:
As data centers reach the upper limits of their power and cooling capacity, efficiency has become the focus of extending the life of existing data centers and designing new ones. As part of these efforts, IT needs to refresh existing infrastructure with servers that deliver more performance and scalability, more efficiently. Read on to learn more.
WHITE PAPER:
This white paper explores the reference architecture for a leading server solution. Learn how this architecture is designed to influence the benefits of virtualizing the underlying infrastructure and address the common problems associated with hardware sprawl.
WHITE PAPER:
This white paper reveals key factors to consider when selecting a server and explains why more and more organizations are relying on x86 platforms. Access key findings from your peers concerning their spending on servers, power and cooling expenses, and more.
WHITE PAPER:
New security threats are constantly emerging, and it is your responsibility to properly protect your business. This white paper discusses four key aspects of IT security and explains how you can effectively address them by implementing processors with built-in security features.
WHITE PAPER:
This white paper explains how the features and options available for ruggedized mobile computers used in warehousing and distribution can extend the time they can perform in warehouses and distribution centers. It also provides guidance on how to make decisions that will protect your investments by meeting user needs today and into the future.
WHITE PAPER:
High density computing is today's standard in best-in-class performance and availability, and those that fail to keep pace or fall behind will find themselves no longer competitive in today's markets.
WHITE PAPER:
This comprehensive white paper explores the many challenges organizations need to address in order to ensure smooth implementation, coordination and management of their PC refresh initiatives.
WHITE PAPER:
Read this paper and get a look at how the next generation microarchitecture's dynamically scalable and design-scalable features directly contribute to power efficiency and performance.
